Abstract Dynamic Blood (Cyber Blood) is a revolutionary synthetic blood substitute designed to augment human resilience and adaptability beyond the limitations of natural blood. This technology incorporates "Dry-AGI" NM-SRN nanobots, microscopic artificial intelligence capable of complex reasoning and autonomous actions within the bloodstream. These nanobots manage a suite of advanced components, including Cybernetic Hemolymph, a high-efficiency oxygen transport system inspired by cephalopods, and "digital twin" organs for fail-safe functionality in catastrophic scenarios. Dynamic Blood promises to revolutionize emergency medicine, enable human adaptation to extreme environments, and pave the way for unprecedented human augmentation, potentially controlling, reducing, or even eradicating a wide range of human illnesses. To ensure safety, a crucial feature of Dynamic Blood is the One-Pass And Exit (OPAE) system, designed to prevent nanobot sentience and potential threats to the human host.